802.11 Parameters for Cisco Access Points User Guide

802.11 Parameters for Cisco Access Points
User Guide

802.11 Parameters for Cisco Access Points

2.4-GHz Radio Support

Configuring 2.4-GHz Radio Support for the Specified Slot Number
Before you begin
Note The term 802.11b radio or 2.4-GHz radio will be used interchangeably.

Procedure

| Command or Action| Purpose
---|---|---
Step 1| enable
Example:
Device# enable| Enters privileged EXEC mode.
Step 2| ap name ap-name dot11 24ghz slot 0 SI
Example:
Device# ap name AP-SIDD-A06 dot11 24ghz slot 0 SI| Enables Spectrum Intelligence (SI) for the dedicated 2.4-GHz radio hosted on slot 0 for a specific access point. For more information, Spectrum Intelligence section in this guide.
| | Here, 0 refers to the Slot ID.
Step 3| ap name ap-name dot11 24ghz slot 0 antenna {ext-ant-gain antenna_gain_value | selection [internal | external]}
Example:
Device# ap name AP-SIDD-A06 dot11 24ghz slot 0 antenna selection internal| Configures 802.11b antenna hosted on slot 0 for a specific access point.
• ext-ant-gain: Configures the 802.11b external antenna gain.
antenna_gain_value- Refers to the external antenna gain value in multiples of .5 dBi units. The valid range is from 0 to 4294967295.
• selection: Configures the 802.11b antenna selection (internal or external).
Step 4| ap name ap-name dot11 24ghz slot 0 beamforming
Example:
Device# ap name AP-SIDD-A06 dot11 24ghz slot 0 beamforming| Configures beamforming for the 2.4-GHz radio
hosted on slot 0 for a specific access point.
Step 5| ap name ap-name dot11 24ghz slot 0 channel
{channel_number | auto}
Example:
Device# ap name AP-SIDD-A06 dot11 24ghz slot 0 channel auto| Configures advanced 802.11 channel assignment parameters for the 2.4-GHz radio hosted on slot 0 for a specific access point.
Step 6| ap name ap-name dot11 24ghz slot 0 cleanair
Example:
Device# ap name AP-SIDD-A06 dot11 24ghz slot 0 cleanair| Enables CleanAir for 802.11b radio hosted on slot 0 for a specific access point.
Step 7| ap name ap-name dot11 24ghz slot 0 dot11n antenna{A | B | C | D}
Example:
Device# ap name AP-SIDD-A06 dot11 24ghz slot 0 dot11n antenna A| Configures 802.11n antenna for 2.4-GHz radio hosted on slot 0 for a specific access point.
Here,
A: Is the antenna port A.
B: Is the antenna port B.
C: Is the antenna port C.
D: Is the antenna port D.
Step 8| ap name ap-name dot11 24ghz slot 0 shutdown
Example:
Device# ap name AP-SIDD-A06 dot11 24ghz slot 0 shutdown| Disables 802.11b radio hosted on slot 0 for a specific access point.
Step 9| ap name ap-name dot11 24ghz slot 0 txpower {tx_power_level | auto}
Example:
Device# ap name AP-SIDD-A06 dot11 24ghz slot 0 txpower auto| Configures transmit power level for 802.11b radio hosted on slot 0 for a specific access point.
• tx_power_level: Is the transmit power level in dBm. The valid range is from 1 to 8.
• auto: Enables auto-RF.

5-GHz Radio Support

Configuring 5-GHz Radio Support for the Specified Slot Number

Before you begin
Note
The term 802.11a radio or 5-GHz radio will be used interchangeably in this document.
Procedure

| Command or Action| Purpose
---|---|---
Step 1| enable
Example :
Device# enable| Enters privileged EXEC mode.
Step 2| ap name ap-name dot11 5ghz slot 1 SI
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 SI| Enables Spectrum Intelligence (SI) for the dedicated 5-GHz radio hosted on slot 1 for a specific access point.
Here, 1 refers to the Slot ID.
Step 3| ap name ap-name dot11 5ghz slot 1 antenna ext-ant-gain antenna_gain_value
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 antenna ext-ant-gain| Configures external antenna gain for 802.11a radios for a specific access point hosted on slot 1.
antenna_gain_value—Refers to the external antenna gain value in multiples of .5 dBi units.
The valid range is from 0 to 4294967295.
Step 4| ap name ap-name dot11 5ghz slot 1 antenna mode [omni | sectorA | sectorB] Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 antenna mode sectorA| Configures the antenna mode for 802.11a radios for a specific access point hosted on slot 1.
Step 5| ap name ap-name dot11 5ghz slot 1 antenna selection [internal | external] Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 antenna selection internal| Configures the antenna selection for 802.11a radios for a specific access point hosted on slot 1.
Step 6| ap name ap-name dot11 5ghz slot 1 beamforming
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz
slot 1 beamforming| Configures beamforming for the 5-GHz radio hosted on slot 1 for a specific access point.
Step 7| ap name ap-name dot11 5ghz slot 1 channel {channel_number | auto | width [20 | 40 | 80 | 160]}
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 channel auto| Configures advanced 802.11 channel assignment parameters for the 5-GHz radio hosted on slot 1 for a specific access point.
Here,
channel_number- Refers to the channel number. The valid range is from 1 to 173.
Step 8| ap name ap-name dot11 5ghz slot 1 cleanair
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 cleanair| Enables CleanAir for 802.11a radio hosted on slot 1 for a given or specific access point.
Step 9| ap name ap-name dot11 5ghz slot 1 dot11n antenna{A | B | C | D}
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 dot11n antenna A| Configures 802.11n for 5-GHz radio hosted on slot 1 for a specific access point.
Here,
A- Is the antenna port A.
B- Is the antenna port B.
C- Is the antenna port C.
D- Is the antenna port D.
Step 10| ap name ap-name dot11 5ghz slot 1 rrm channel channel
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 rrm channel 2| Is another way of changing the channel hosted on slot 1 for a specific access point.
Here,
channel- Refers to the new channel created using 802.11h channel announcement. The valid range is from 1 to 173, provided 173 is a valid channel in the country where the access point is deployed.
Step 11| ap name ap-name dot11 5ghz slot 1 shutdown
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 shutdown| Disables 802.11a radio hosted on slot 1 for a specific access point.
Step 12| ap name ap-name dot11 5ghz slot 1 txpower {tx_power_level | auto}
Example:
Device# ap name AP-SIDD-A06 dot11 5ghz slot 1 txpower auto| Configures 802.11a radio hosted on slot 1 for a specific access point.
• tx_power_level- Is the transmit power level in dBm. The valid range is from 1 to 8.
• auto- Enables auto-RF.

Information About Dual-Band Radio Support

The Dual-Band (XOR) radio in Cisco 2800, 3800, 4800, and the 9120 series AP models offer the ability to serve 2.4–GHz or 5–GHz bands or passively monitor both the bands on the same AP. These APs can be configured to serve clients in 2.4–GHz and 5–GHz bands, or serially scan both 2.4–GHz and 5–GHz bands on the flexible radio while the main 5–GHz radio serves clients.
Cisco APs models up and through the Cisco 9120 APs are designed to support dual 5–GHz band operations with the i model supporting a dedicated Macro/Micro architecture and the e and p models supporting Macro/Macro. The Cisco 9130AXI APs and the Cisco 9136 APs support dual 5-GHz operations as Micro/Messo cell.
When a radio moves between bands (from 2.4-GHz to 5-GHz and vice versa), clients need to be steered to get an optimal distribution across radios. When an AP has two radios in the 5–GHz band, client steering algorithms contained in the Flexible Radio Assignment (FRA) algorithm are used to steer a client between the same band co-resident radios.
The XOR radio support can be steered manually or automatically:

• Manual steering of a band on a radio—The band on the XOR radio can only be changed manually.
• Automatic client and band steering on the radios is managed by the FRA feature that monitors and changes the band configurations as per site requirements.

Note
RF measurement will not run when a static channel is configured on slot 1. Due to this, the dual band radio slot 0 will move only with 5–GHz radio and not to the monitor mode.
When slot 1 radio is disabled, RF measurement will not run, and the dual band radio slot 0 will be only on 2.4–GHz radio.

Configuring Default XOR Radio Support

Before you begin

Note The default radio points to the XOR radio hosted on slot 0.

Procedure

| Command or Action| Purpose
---|---|---
Step 1| enable
Example:
Device# enable| Enters privileged EXEC mode.
Step 2| ap name ap-name dot11 dual-band antenna ext-ant-gain antenna_gain_value
Example:
Device# ap name ap-name dot11 dual-band antenna ext-ant-gain 2| Configures the 802.11 dual-band antenna on a specific Cisco access point.
antenna_gain_value: The valid range is from 0 to 40.
Step 3| ap name ap-name [no] dot11 dual-band shutdown
Example:
Device# ap name ap-name dot11 dual-band shutdown| Shuts down the default dual- band radio on a specific Cisco access point.
Use the no form of the command to enable the radio.
Step 4| ap name ap-name dot11 dual-band role manual client-serving
Example:
Device# ap name ap-name dot11 dual-band role manual client-serving| Switchs to client–serving mode on the Cisco access point.
Step 5| ap name ap-name dot11 dual-band band 24ghz
Example:
Device# ap name ap-name dot11 dual-band band 24ghz| Switchs to 2.4-GHz radio band.
Step 6| ap name ap-name dot11 dual-band txpower {transmit_power_level | auto}
Example:
Device# ap name ap-name dot11 dual-band txpower 2| Configures the transmit power for the radio on a specific Cisco access point.
Note
When an FRA-capable radio (slot 0 on 9120 AP[for instance]) is
set to Auto, you cannot configure static channel and Txpower on this radio.
If you want to configure static channel and Txpower on this radio, you will need to change the radio role to Manual Client-Serving mode.
Step 7| ap name ap-name dot11 dual-band channel channel-number
Example:
Device# ap name ap-name dot11 dual-band channel 2| Enters the channel for the dual band.
channel-number—The valid range is from 1 to 173.
Step 8| ap name ap-name dot11 dual-band channel auto
Example:
Device# ap name ap-name dot11 dual-band channel auto| Enables the auto channel assignment for the dual-band.
Step 9| ap name ap-name dot11 dual-band channel width{20 MHz | 40 MHz | 80 MHz | 160 MHz}
Example:
Device# ap name ap-name dot11 dual-band channel width 20 MHz| Chooses the channel width for the dual band.
Step 10| ap name ap-name dot11 dual-band cleanair
Example:
Device# ap name ap-name dot11 dual-band cleanair| Enables the Cisco CleanAir feature on the dual-band radio.
Step 11| ap name ap-name dot11 dual-band cleanair band{24 GHz | 5 GMHz}
Example:
Device# ap name ap-name dot11 dual-band cleanair band 5 GHz
Device# ap name ap-name [no] dot11 dual-band cleanair band 5 GHz| Selects a band for the Cisco CleanAir feature.
Use the no form of this command to disable the Cisco CleanAir feature.
Step 12| ap name ap-name dot11 dual-band dot11n antenna{A | B | C | D}
Example:
Device# ap name ap-name dot11 dual-band dot11n antenna A| Configures the 802.11n dual-band parameters for a specific access point.
Step 13| show ap name ap-name auto-rf dot11 dual-band
Example:
Device# show ap name ap-name auto-rf dot11 dual-band| Displays the auto-RF information for the Cisco access point.
Step 14| show ap name ap-name wlan dot11 dual-band
Example:
Device# show ap name ap-name wlan dot11 dual-band| Displays the list of BSSIDs for the Cisco access point.

Configuring XOR Radio Support for the Specified Slot Number (GUI)

Procedure

Step 1 Click Configuration>Wireless > Access Points.
Step 2 In the Dual-Band Radios section, select the AP for which you want to configure dual-band radios.
The AP name, MAC address, CleanAir capability and slot information for the AP are displayed. If the Hyperlocation method is HALO, the antenna PID and antenna design information are also displayed.
Step 3 Click Configure.
Step 4 In the General tab, set the Admin Status as required.
Step 5 Set the CleanAir Admin Status field to Enable or Disable.
Step 6 Click Update& Apply to Device.

Configuring XOR Radio Support for the Specified Slot Number

Procedure

| Command or Action| Purpose
---|---|---
Step 1| enable
Example:
Device# enable| Enters privileged EXEC mode.
Step 2| ap name ap-name dot11 dual-band slot 0 antenna ext-ant-gain
external_antenna_gain_value
Example:
Device# ap name AP-SIDD-A06 dot11 dual-band slot 0 antenna ext-ant-gain 2| Configures dual-band antenna for the XOR
radio hosted on slot 0 for a specific access point.
external_antenna_gain_value – Is the external
antenna gain value in multiples of .5 dBi unit.
The valid range is from 0 to 40.
Step 3| ap name ap-name dot11 dual-band slot 0 band{24ghz | 5ghz}
Example:
Device# ap name AP-SIDD-A06 dot11 dual-band slot 0 band 24ghz| Configures current band for the XOR radio
hosted on slot 0 for a specific access point.
Step 4| ap name ap-name dot11 dual-band slot 0 channel{channel_number | auto | width [160 | 20 | 40 | 80]}
Example:
Device# ap name AP-SIDD-A06 dot11 dual-band slot 0 channel 3| Configures dual- band channel for the XOR
radio hosted on slot 0 for a specific access point.
channel_number- The valid range is from 1 to
165.
Step 5| ap name ap-name dot11 dual-band slot 0 cleanair band{24Ghz | 5Ghz}
Example:
Device# ap name AP-SIDD-A06 dot11 dual-band slot 0 cleanair band 24Ghz| Enables CleanAir features for dual-band radios
hosted on slot 0 for a specific access point.
Step 6| ap name ap-name dot11 dual-band slot 0 dot11n antenna{A | B | C | D}
Example:
Device# ap name AP-SIDD-A06 dot11 dual-band slot 0 dot11n antenna A| Configures 802.11n dual-band parameters hosted on slot 0 for a specific access point.
Here,
A- Enables antenna port A.
B- Enables antenna port B.
C- Enables antenna port C.
D- Enables antenna port D.
Step 7| ap name ap-name dot11 dual-band slot 0 role {auto | manual [client- serving | monitor]}
Example:
Device# ap name AP-SIDD-A06 dot11 dual-band slot 0 role auto| Configures dual- band role for the XOR radio hosted on slot 0 for a specific access point.
The following are the dual-band roles:
• auto- Refers to the automatic radio role selection.
• manual- Refers to the manual radio role selection.
Step 8| ap name ap-name dot11 dual-band slot 0 shutdown
Example:
Device# ap name AP-SIDD-A06 dot11 dual-band slot 0 shutdown
Device# ap name AP-SIDD-A06 [no] dot11 dual-band slot 0 shutdown| Disables dual-band radio hosted on slot 0 for a
specific access point.
Use the no form of this command to enable the
dual-band radio.
Step 9| ap name ap-name dot11 dual-band slot 0 txpower{tx_power_level | auto}
Example:
Device# ap name AP-SIDD-A06 dot11 dual-band slot 0 txpower 2| Configures dual- band transmit power for XOR
radio hosted on slot 0 for a specific access point.
• tx_power_level- Is the transmit power level in dBm. The valid range is from 1 to 8.
• auto- Enables auto-RF.

Receiver Only Dual-Band Radio Support

Information About Receiver Only Dual-Band Radio Support

This feature configures the dual-band Rx-only radio features for an access point with dual-band radios.
This dual-band Rx-only radio is dedicated for Analytics, Hyperlocation, Wireless Security Monitoring, and BLE AoA*.
This radio will always continue to serve in monitor mode, therefore, you will not be able to make any channel and tx-rx configurations on the 3rd radio.

Configuring Receiver Only Dual-Band Parameters for Access Points

Enabling CleanAir with Receiver Only Dual-Band Radio on a Cisco Access Point (GUI)

Procedure

Step 1 Choose Configuration>Wireless > Access Points.
Step 2 In the Dual-Band Radios settings, click the AP for which you want to configure the dual-band radios.
Step 3 In the General tab, enable the CleanAir toggle button.
Step 4 Click Update& Apply to Device.

Enabling CleanAir with Receiver Only Dual-Band Radio on a Cisco Access

Point

Procedure

| Command or Action| Purpose
---|---|---
Step 1| enable
Example:
Device# enable| Enters privileged EXEC mode.
Step 2| ap name ap-name dot11 rx-dual-band slot 2 shutdown
Example:
Device# ap name AP-SIDD-A06 dot11 rx-dual-band slot 2 shutdown
Device# ap name AP-SIDD-A06 [no] dot11 rx-dual-band slot 2 shutdown| Disables receiver only dual-band radio on a specific Cisco access point.
Here, 2 refers to the slot ID.
Use the no form of this command to enable receiver only dual-band radio.

Configuring Client Steering (CLI)

Before you begin
Enable Cisco CleanAir on the corresponding dual-band radio.
Procedure

| Command or Action| Purpose
---|---|---
Step 1| enable
Example:
Device# enable| Enters privileged EXEC mode.
Step 2| configure terminal
Example:
Device# configure terminal| Enters global configuration mode.
Step 3| wireless macro-micro steering transition-threshold balancing-window
number-of-clients(0-65535)
Example:
Device(config)# wireless macro-micro steering transition-threshold balancing- window 10| Configures the micro-macro client load–balancing window for a set number of clients.
Step 4| wireless macro-micro steering transition-threshold client count number-of-clients(0-65535)
Example:
Device(config)# wireless macro-micro steering transition-threshold client
count 10| Configures the macro-micro client parameters for a minimum client count for transition.
Step 5| wireless macro-micro steering transition-threshold macro-to-micro RSSI-in-dBm(–128—0)
Example:
Device(config)# wireless macro-micro steering transition-threshold macro-to- micro -100| Configures the macro–to–micro transition RSSI.
Step 6| wireless macro-micro steering transition-threshold micro-to-macro RSSI-in-dBm(–128—0)
Example:
Device(config)# wireless macro–micro steering transition-threshold
micro-to-macro -110| Configures the micro–to–macro transition RSSI.
Step 7| wireless macro-micro steering probe-suppression aggressiveness number- of-cycles(–128—0)
Example:
Device(config)# wireless macro-micro steering probe-suppression aggressiveness -110| Configures the number of probe cycles to be suppressed.
Step 8| wireless macro-micro steering probe-suppression hysteresis RSSI-in-dBm
Example:
Device(config)# wireless macro-micro steering probe-suppression hysteresis -5| Configures the macro-to-micro probe in RSSI.
The range is between –6 to –3.
Step 9| wireless macro-micro steering probe-suppression probe-only
Example:
Device(config)# wireless macro-micro steering probe-suppression probe-only| Enables probe suppression mode.
Step 10| wireless macro-micro steering probe-suppression probe-auth
Example:
Device(config)# wireless macro-micro steering probe-suppression probe-auth| Enables probe and single authentication suppression mode.
Step 11| show wireless client steering
Example:
Device# show wireless client steering| Displays the wireless client steering

Verifying Cisco Access Points with Dual-Band Radios

To verify the access points with dual-band radios, use the following command:
Device# show ap dot11 dual-band summary
AP Name Subband Radio Mac Status Channel Power Level Slot ID Mode
………………………………………………………………………………………………………
4800 All 3890.a5e6.f360 Enabled (40) 1/8 (22 dBm) 0 Sensor
4800 All 3890.a5e6.f360 Enabled N/A N/A 2 Monitor

802.11 Parameters for Cisco Access Points

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